Combined type-writing and computing machine.



R. M. BECKER.

l COMBINED TYPE WRITING AND COMPUTING MACHINE. APPLICATION lFILED JULY 31. 19:3.

" ATT N EY R. M. BECKER.

COMBINED TYPE WRITING AND COMPUTING MACHINE.

APPLxc/mon min JULY 31. 1913.

l 1,296,354. Patented Mar. 4,1911

SHEETS--SHEET 2.

FIG.2.

@@w v BY ORNEY R. M. BECKER.

coMBmEn TYPE WRITING AND coMPUnNG MAcHrNE.

Patented Mar. 4,1919.

APPLICATION FlLED JULY31. 1913.

FIG.3.,

GOGO@ wnNEssEs TNVENTOR:

i SHEETS-SHEET 4.

Patented. Mar. 4, 1919.

R. M. BECKER.

APPLICATION HLEo1uLYa1.19x3.

CUIVIBINED TYPE WRITING AND COMPUTING MACHINE.

www

' R. M. BiCKER.

COMBINED -TYPE WRITING AND COMPUTING MACHINE.

APPLICATION FILED JULYBI. ISIS.

Patented Mar. 4,1919.

INI QQ IIMI INVENTOR: M 9h, lwm

WITNESSESv R. M. BECKER.

COMBINED TYPE WRITING AND CGMPUIING MACHINE.

' APPLICA-V'O'N'FLED IULY31`1913. I I

1,296,354. Patented Mar. 4, 1919.

WTNESSES: INVENTOR:

Q'q XA%A ATTO NEY R. IVI. BECKER. COMBINED TYPE WRITING AND COMPUTING MACHINE.

APPLICATION FILED IULYSI. 1913.

Patented Mar. 4, 1919.

SHEETS-SHEE'I' 7 I ,l INVENTOR.

s; cn' E:

`fwsTNE II II II II II II II Il II I OOOOOOOO SSES:

ATTORNEY.

` 'To all whom t may concern:

ASimms* PATENT OFFICE*- nIoHAan n.' Baena., or BROOKLYN, NEW-YORK, AssIGNon, BY MEsNE ASSIGNMENTS,

T UNDEBWOOD COMPUTING MACHINE COMPANY, OF NEW YORK, N. Y., A CORFO- nn'rIoN or NEW Yonx. y

oolmINnn 'Farra wItI'IINGr ANI) vCOMPUTING MACHINE.

Beit known that I, RICHARD M. BECKEII, a citizen of the' United States, residing 1n Brooklyn borough, city of the county of Kings and Stateo New York, have'invented certain new'and useful Improvements in CombinedType-Writlng and f Computing Machines, offwhich the followvalues ofthe y ing to'thecomplements of the values of the v.ao

ing is a specification;

This invention relates to an improvement. ink combined typewriting 'and computing machinesof the Underwood-Hanson type especially'and is an improvement on an ap'- plication of Hans Hanson, No. 626,550, filed May 11, 1911.

In the above-mentioned application it has been shown how subtraction may be performed in a4 computing mechanism of the indexing type by the' complementary method. That is' tosay, it4 has been shown how pin-bearing rack-bars hadftheir pins set corresponding to the values of the numeral keys,*so as to rotate computing wheels connected thereto corresponding amounts for addition, and for Vsubtraction the pins instead of bein set aoordng to-the direct leys"actuara .were set accordkeys actuated,using nine as the whole number or base in obtaining the complement in the decimal system. This was. shown for butone computing head. Q

- In the present invention it is shown how subtraction can-be carried on by this complementary method not only for one computing head but for a plurality of Computing heads, and' it is also shown how one computing head may be adding while another is subtracting, allgunder the control of the same set of numeralkeys. To accomplish thisaplurality of computing heads are provided, and in the instance used to illustrate the inventiontwo are shown.4 Lach of these heads'is .provided with a set of rack bars, which form vdenominational column members and arc each provided with a series of nine pins corresponding to numeral keys fro1n1, to 9. The numeral keys are arranged not only to typewrite the numbers to be computed but also to actuate a set of linkages, which may befcalled primary or Specication of Letters Patent.

New f York, in

however, has an individual set of pin-settingV linkages which may be actuated by the l Patented Mar. 4, 1919. Application led July 31, 1913. Serial No. 782,307, 4

master linkages at the actuation of the numeral keys and maybe ter ed secondary linkages. Thesesecondary li ikages set the pins for their own particular'` computing vhead to correspond either directly with the values ofi the nume al'keys acaiated or according t'the fco"'plements gd the values of the numeral'kys 'accordingto' whether fthe particular computing head'to which they belong-is set for addition or' for subtraction. Each computing head .has an individual anism so that the one maybe set for'subtraction while the other is set for addition, 'and both computing heads will" concomitantly carry out their own particular computation with the same set of numbers. I

Other features and advantages will inafter appear. l l

In the accompanying drawingsi Figure 1 is a Verticalk sectiontaken from '5 state-controlling or subtraction-setting mech- .i

herei front to rear of the machine with' parts broken away to show theunderlying structure and with parts omitted' for'tlie sakeI of simplicity. lf n' Fig. 2 is a horizontal section through the machine as a whole showing the pin-setting mechanism for the left-hand computing head viewed from the front in a subtracting con dition and that of the right-hand comput-y ing head in an adding condition.

Fig. 3 is an enlarged top plan view of the pin-setting mechanisms for both computing heads showing, however, contrary to Fig. 2,A

the left-hand pin-setting mechanism in an adding condition and the right-hand pin'- setting mechanism in a subtracting condition. l Y l Fig.` 4 is a -detail in, elevation of the pinA setting mechanisms shown in Fig.r3.'

Fig. 5 is a verticalsection on the liney 5-5 of Fig. 3, showingA the 9 pin restoring linkages. Y

Fig. 6 is a horizontal section through the pin-setting linkages on the line 6-6 of Fig. 4, and showing the lefbhand linkagc'in an' adding state and the right-hand linkage in a subtracting state.

Fig. 7 is a detail view in elevation partly broken away to show the underlying structure of the supernumerary bar and mechanism for giving' an added step of 1novement to the computing Wheel of lowest denomination, that is, the units or cents computing Wheel.

Fig. 8 is a skeleton perspective view of the pin-setting mechanisms showing the lefthand set in an adding condition and the right-hand set in a subtracting condition.

Fig. 9 is an enlarged vertical section taken from front to rear showing the pin-setting mechanisms andthe 9 pins for one of the computing heads in the act of being set for subtraction.

Fig. 10 is a vertical section similar tothe section of the pin-setting linkage shown in Fig. 9 but showing the same set for addition.

Fig. 11 is a detail section from front to rear of the machine,; showing the setting of the 6 pin in the setting up of a number according to a subtracting computation with the concomitant unsetting of the 9 pin.

, Fig. 12 is a detail top plan view showing one of the nest of pin-bearing rack bars.

Fig. 13 is a fragmentary vView in elevation of thepin-setting mechanism showing the thrust rod of the numeral key 17 in the act of being depressed to actuate the linkage and showin the left-hand. secondary linkage in a con ition for addition and the right-hand secondary linkage in a condition for subtraction. In this view it will be evident that the left-hand secondary linkage is setting up a l pin corresponding to the l numeral key and the right-hand secondary linkage is setting up 8 corresponding to the complement of one, using nine as the base.

Referring more particularly to the separate parts'of this invention as embodied in the form shown in the drawings, l indicates numeral keys and 2 character keys, which depress key-,levers 3 to rock bell cranks Il and thus swing type-bars 5 up rearwardly against the front side of a platen 6 mounted to rotate on a carriage 7. At the actuation of any of the keys the carriage 7 is given a step-by-step` movement by a spring barrel, not shown, under the control of an escapement mechanism indicated in general at 8. This escapement mechanism includes a rack bar 9 adjustably mounted on the carriage 7 so as to be movable into and out of engage- .ment with a pinion 10 connected to an-l escapement Wheel 11, which is controlled in its movement by a pair of dogs 12 mounted on a universal frame,Y 13, the latter being reclprocated at the actuation of any of the keys by engagement therewith of heels 14 providedon the type-bars 5.

The numeral keys 1 in addition to operating the type action to print'the numbers on the wor -sheet carried by the carriage 7,

also are arranged to control the numbers to runv up in a plurality of computing heads, of which two are shown-in this illustration at 15 and 16. These computing heads each include a series of computing Wheels 17 carrying gears 18, which are connected thereto by a pawl-and-ratchet mechanism, not shown, so as to be driven by rack-bars 19 having racks 20 meshingwith the gears` 18. The rack-bars 1 9' are eachl provlded with a series of pins 21, :nine in number, corresponding to the numeral keys and digits from 1 to 9. These pins 2l are settable from a position yprojecting above the rack-bars to a position projectingbelow the rack-bars, so as to determine the extent of movement thereof.

The movement to the rack-bars 19 may be given by a cross bar 22 on a general operator 23 coming i'nto engagement with the set pins 21 on its forward movement, advancing the rack-bars 19 and thusl advancing the computing wheels 17 amounts-corresponding to `the pins set.. Themotion of the general operator may be obtained in any suitable manner, as by means of one or more racks 24 provided on thefside bars of theV general operator and meshing with pinions 25 engaged by segments 26 on a shaft 27 which 1s also provided with a handle28 which may be oscillated when it is desired to 1n general at 29, which may be driven from one of the racks 24.

In order that the pins 21 onv the rack-bars 19, which are denomina-tional members lin that they correspond with the denominations of the computing wheels, may be set, it is"- necessary to move each of the rack-bars individually lfrom its fellows, so that v'the pins set will be on a denominational rackbar 19 corresponding to the denominational column being written in on the Work-sheetV carried by the carriage. To accomplish this, there 1s provided on the carriage 7, for each of the computing heads 15 and 16,' a tappet 30 which is arranged to come into copera-I tion aerzaz'm witlia' set of jacks 31 for each of .the computing heads. These jacks are pivotally mounted intermediate their ends so as to be rocked bytheir particular tappet 30 and thus depress thrust rods 32, which in turn rock bell cranks 33 of transposition linkages 34 arranged to raise individually' the pin-bearing rack-bars 19. The transposition' linkages While the tappet 30 for each-computing head 34 arev `so constructed that advances into coperation with thejack/s 3]."l

from right to left with .the travel kof the carriage 7, the liftmg: of the4 rack-bars 1 9 will advance from left to right corresponding with the computing inthe computing Aheads 15 and 16.

From the above it will readily be seenthat for the two computing heads =15 'and 16 Vthere will be provided two'tappe'ts 30 and 1 two. sets of jacks 3l.

.act atthe same time sothat two'p1nbear- The tappets 30 may ing yrack-'bars may bey concomitantly lifted so as -tohave pins Jthereonset up concomitantly either according to the direct values of the :numeral keys 1 or to the complements thereof,I according to Whether the computing heads and 16 are to add or to r subtract.A n In order to set the pins 21cooperat1on of ythe numeral keys 1 is needed with the Vraising of the pin-bearing rack-bars 1 9. To

do this, ea'ch of the numeral keys 1 is provided With a thrust link 35 which engages an arm 36 provided on arock'shaft 37, k.of

which there is one for each of the numeral A keys from l to 9, These rock shafts,

in addition to the arms 36, are provided .with arms 38 forked at their-upperex-l .tremities toengage pins 39' provided von links 40, of which there is. one vfor each vnumeral key from l tov9.

"This mechanism may be termed the pri' mary or master linkages `41, inthat la `is controlled from one set of numeral keys and in turn controls 'two setsof secondary pin-setting linkages, one forl each of the computing heads 15 and 16. Inasmuch as twoI computing heads are shown, these sets of secondary pin-setting linkages will be in# dicated specilically by the numeral 42 for that corresponding tothe computingy head 15, and 4'3 for that corresponding to the computing head A16. Each set 'of the Secondaryy in-setting linkages 42 Iand. 43 is I of thea ternative type, so lthat it may bev actuated 'by thev primary or master pin- "setting linkages ,41either to set pins in 'direct laccbrdance with the values of the numeral -keys actuated' or according to the complements of these values. Each of the links `40zis supported for reciproc'atory motion against the `tension of a spring 44 in one direction by arms 45 and 46 loosely mounted on ixed shafts 47.

. Each 'of these links is provided with a plurality of long pins: 48 and 49, one for each computing-head 15 and 16. lThese'pins engage (Figs. 8 and 4) in slots 50l and 51 provided in arms 52 and 53. There are nine ofthe arms 52 corresponding to the digits 17 to 9 for the'computing head 1 5 and there are likewise nine of the' arms 53 corresponding to the same digits for the computing head. 16. The pins 48 and 49' are' arranged in' eclielon, so that the i arms 52 and53Qmay avoid other arms' of the saine series. The arms 52 are secured to a Series` of rock shafts 54 while `the arms 53 are similarly secured Ato a series of. odk shafts 55.*

These rock shafts are mounted` in a frame 56 for sliding movement," so as to adjust the arms-52 and53. ThecontroLhoWever, 'for i the rock 'shafts 54 istseparate from'that lfor the'rock'shafts 55, a"s lwill' be explained hereinafter, so that vthe pin-setting mechanism of one computing/head Acan be oon'- 70 trolled'as'to its adding-or Asubtracting state independently of the control of the othercomputing head. The arms 52 for the computing head 15 -Will be indicated specifically as 5-2A1, 52A2, 75 5215s, 54M, tease' 52M, warmen and a series of subtracting'arms which extend l85 on an' opposite diagonal from that of-tlie adding arms (Fig 3): These arms are in- 'l dicated, in ythe/case of the secondary pinsetting linkages 42, bg 'the' numerals 52S1,

2 S5, 525, 52s7 'and 90 `5268. l"For the'secondary pin-setting link 'ages 43, .there islikewise provided a set of subtracting arms on the shafts 55, indicated speciically' vby the numerals '53.31.

'53s2, asse, tese, saASS, aasyss'7 and 95 53S8. In eachiinstance there is no subtract-- ing arm for the 9 key, as'in thissystem the complement of-nine is zero. "The'arm' corresponding -to the 5 digit'and the c omplement `thereof is common for. both the adding and the subtracting set-ofarms, Ias it lies between theA fifth andfourth linkages cgrres nding to the exact value of the digit key` vand the complementary yalue of the digit key 5'` While the arms 52A and 53A are connected to be actuated bythe' links 40, the arms 52S and 53S dependfor their motion-on being secured to the rock shafts 54 `and 55 and are not directlyconnected tothe links 40. 110 Inasmuchas from-.this point on the two secondary pinssetting mechanismsy are'ide'm' tica] but one will be described. 'Each of the arms 52A or'53A is provided iWith" aI fork 57, which engages a pin 58 on' a link 115 59. There ar `one of these pins 58 andl one of the .links 59 for each-ofthe digits from,1ivt0 9.Y When the arms-52A, 53A are in engagement With these pins, theylreciproca'te the linksl 59, which. in turn 120 rockzbell crankv levers 60 pivoted at 6'1`to Each of the links-59 corresponds to' w1-Ow' of the pins 21 in the nest-of the corresppnding computing head.. That is to say, if

the sub-link 64 corresponding to the digit l is actuated, then it will set up the particular pin corresponding to the digit fl on the particular rack bar 19 which happens to be raised above its fellows; that, too, for both computing hea-ds if both are in action.

As has been stated a'bove. the 'rock shafts 54 and 55 are slidable Ibodily in the frame 56 when changing from an adding position `such as shown at the left in Fig. 3, to a subtracting position such as shown at the right. infFig. 3. In moving from an adding to a subtracting position, the adding arms 52A, 53A for whichever computing head is being changed from addition to subtraction,

are shifted so that the forks 57 on all of the adding arms come out of engagement with the pins 58, but the pins 48, 49 are long enough to stay in engagement with the perforations 50, 51 in the adding arms, so that these adding arms are at no time disconnectd from the links 40.

At the same time that the adding arms are l shifted to a disengaged position with respect to the links 59, Ithe subtraction arms 52S and 53S will be shifted so that correspond ing forks will `come into enga-gement with pins 65 on the opposite sides of the links 59. The subtracting arms, however, Will come into engagement withsuch of the links 59 :as Willset the complements of the Values of the keys` struck instead of, the direct values. That is to say, in case of the computing head 15, the subtracting arms 52S1,l

52s2, 52s: sesgteAs, 52s, 52181 and 52sa will become connected up to the links 59 and V thus to the links 64 corresponding to a set tino' of the pins having values 8, 7. 6, 5,5 4, 3, 2 and l respectively. It will thusbe seen that when either one of the secondary pin-setting linkages 42, 43 is adjusted for subtraction, it will be in a condi tion to setup pins according tothe complements of the numeral keys struck and not according to the rdirect values of the numeral keys struck.

In order to shift the shafts .54 and 55 and perform lsuch other functions as are necessary 'to a subtracting operation, there is provided for thcomputing head 15, a subtraction-setting key 66, .and for the computing head 16,:a subtraction-setting key 67, the action of each key being the same, so that only one will lbe described. When one of the subtraction keys is thrust rearwardly it 4carries with it a subtraction rod V68 a amst the tension of a spring 69. .On the 'su traction rod there is provided a pin (Figs. y1 and 9), which engages a lever 711 pivoted at72 to rock the same vso as to lforce the' upper yextremity ofthe lever 71 in the direction of the uppermost arrow shown in Fig. 9. The upper extremity of this lever bears against a, shifter bar 73 vbeyond the pivot 74 `thereof so as tov rock the same. The

gage the tails of the levers lar rack-bar 19 which happens'to 'be raised shifter bar 73 engages in a series of alined slots 75 provided in the rock shafts 54, 5.5', according to which computing head is considered. The shifter bar73 thus acts to shift vthe rock shafts 54, 550i its particular computing head from shown in Fig. 1, to its subtractin position shown in Fig. 9, wherein the ad ing arms will be disconnected from the pin-settin linkages 59 and the subtracting arms wil be connected thereto. When the shifter bar 73 has completed this action, it is caught in its subtracting position by a latch 76, which is normally spring pressed to action by a spring 77. In addition to shifting the rock shafts for sub-traction, each subtraction rod 68 roc'ks an arm 78 to which is secured a bail 79 universal to all of' the .denominational rack bars 19 for one computing head solely. 4This universal bail raises ally of these rack bars so that the 9 accom li-sh this, the shaft or pivot 72 of the lever -1 has also secured Ithereon a bail 80 which overlies and rocks a series of levers 8l pivoted intermediate their ends and engage'4 ing at their front ends in grooves 82 provided in the 9 the bars 19 of the computing head beingset for subtraction. y

The tails of the 9 pin leavers 81 for each of the computing heads 15 and 16 underlie separate pin-restoring linkages 83, one for each set of 9 .restoring linkages are the same, so only one will be descrlbed. Each pm-restoring linkits adding position pins thereon maybe set. To

pin levers 81; These pinpins of the pins 21 on all of age 83 comprises a lower reach 84, which is arranged to engage with the tails lof the 9 pin levers 81 when the rack-bars `19 thereof are lraised to set up a pin inv a subtraction- `setting operation corresponding to any of maintained parallel to each other and are normally held in a collapsed position -by a spring 89, which holds the lower reach or link 84 in its uppermost position.

'When any of the numeral/keys are struck, however, for a` particular computing head in a subtracting operation, as has been stated above, one ofthe shafts 54, 55, according to thecomputing head` is rocked. This rocking may be .translated into a spreading motion of the pin-restoring linkage 83 and a `downward motion of the reach or linkU84 to enat this time. 'lio do this, each of the shafts 54, 55 is provided. with an arm ,'90, Whicli when the shaft .associated -`:t-llierewith is 81 on the particu-o rocked, will engage a corresponding pin 91- on the upper reach 88, so as to swing this reach to one side, thereby, through the connected bell cranks 85, depressing the lower reach or link 84. That is to say, there is one of the arms 90 for each digit numeral key from l to 9, and there is one of the pins 91 lor each of these arms, so that no matter what numeral key is struck, the pin-restor- 10 ving linkage 83 ,will be actuated and the link or reach 84 depressed to restore the. 9 pin on the particular denominational column rack-bar 19 in action.

In a normal adding operation of courseV 1liV there is no necessityfor having the arms 90 in action, so that'these arms are normally clear of the pins 91 when the pin-setting mechanism for any particular computing head is set for addition. When, however, 20.the pin-setting mechanism is adjusted for subtraction, inasmuch 'as the rock shaft 54,

55 Aare slid forwardly, the arms 90`will be brought into engagement with the pins 91 at such time.Y

give an'added step of movement in a'subtracting operation to the computing wheel of lowest denomination, that is, in t e decimal system, the unitsor cents wheel. Forv this purpose there is provided for each computing head a supernumerary bar 92 (Fig. t

which has but a single pin93 settable to determinei a movement of the bar 92 by the general operator 23 when the latter ismoved forwardly 'to run up a subtraction accumulation. .The supernumerary bar overlies the universal bail 79, so that when all of the 'pin-bearingrack-'bars are raised, it will likewise be raised so that the pin 93 thereon will,

40k engage a fixed abutment 94 (Fig. 9). The I pin 93 will then be set to av position projecting below bar 92 when advanced forwardly by the general operatorwill engage a rock arm-95, piv- 45., ote'd at 96 and bearing a kicking pawl 97 'which is normally held by a spring 98 in engagement with the teeth of a gear 99 on the units or cents computing wheel.` The movement of the bar 92 will 'rock the arm 95 against the tension of a spring 100, so as to one step ofhovement of the units Acomputing wheel. rItwill therefore happen that when the general operator returns and with'- draws the supernumerary ba`r`92',l the spring 100 will expand, forcing thekicking pawl uphead was set for subtraction, the pin-setting mechanism, including the rock shafts 54 or and the shifter bar 7 3, was locked in rits subtractionfsetting position `bythe latch 7 6.

y against the tensionof the spr1ngs77-,so asto It is essential in this type of machine to the supernumerary bar 92.l The as by means of tabulatin pull downthe pawl '97 a distance equal'to' wardly, so that the unitsl or cents computingv Now, then, it is desirable' to release this lock and permit the return ofthe pin-setting mechanism to an addition-setting state after the accumulation of a 'subtractioncomputation, that is, after the numberfto be comj puted hasnmeen run up in the'computing wheels. 11" r this purpose-there isv provided in one of the side bars of the `general opera- `tor 23, a camming notch 101 (Fig. 1 in which enga es a follower head"102`on an 75 arm 103. T is arm 103 is'secured to a rock shaft 104, so as to rock the same, whenthe general operator l2 3 starts forwardly `in the operation ofvrunning up in 'the4 computing wheels, a number accumulated bythe setting 8 0 of the pins 21. The rock shaft ,104yha's'an arm 105 for cachot the computing heads 1.5 and 16,. and thus for each of the latches 76. With the rocking of the`shaft'104 on the forward movement of the general' operator, these arms 105 will be swungff wardly to engage the tailV endsjofthe a v es y76 and swing the .lockingends thereof downwardly release the shifter bars 73 and permit 'the 90 return of the rock shafts 54, 55 andthe parts carried thereby underl the traction of the are located on the carriagef.7fat suc points where it is desiredto have'fcomputing zones or columns for the two 'orfnrore computing heads 15, 16. While only'ftwo, computlng heads are shown, it isv to be understood that" any number within reasonable linut may be used. The carriage'7 is startedr at the extreme right 'of itstravel'and brought to the f first computing zone in'anyA suitable manner,

'mechanism not shown. The tappets 30 or the different computingheads will then be ready to engage their own vset of jacks 31 rto accord the Vdenominational columns .of the computation as carried onby the com uting mechanism with the' ldenomlnationa fcolumns 4of .the

matter as' written lby the typewriting mecha nism. The numeral 4keys 1 are then struck to write the digits on'the work-sheet carried by thecarriageat the .same'time setting up these digits by a setting ofthe pins 21- whose rack-bars 19 are raised indivldually and ser'atz'm by the jacks 31. That is to say,

if'we have two rackbars raised, one for each computing head, hence, by virtueof a master link 41 and the two secondary linka es-42 and 43,'twopins will beconcomitant y set, one for eaf li `computing head.` If we are adding, thesepins l will beset accordingvto. the di rect values of' the numeral keys struck. On

the other' hand, if both of the computingv 13o 1oof y heads Were subtracting, these pins would be are subservient to a master l of 'their'` direct I the value of the numeral 'feature 1s m'ade posslble .rock shaftsv 54- can set? according to the complements of the values lof the numeral keys actuated instead values.

Again, -it is possible to set one computing head for subtraction while the other is `adding', so thatthere will be a concomitant setting of the pins, one according to the direct, willie of the numeral key actuated and the ,other according to the complement of key actuated. This by having the individual secondary setting linkages 42, 43, which arelindividually vadjustable for either addition or subtraction. That is to Say, the

be adjusted by the actuation. of the subtraction key 66 independently of the rock shafts 55 which are adjusted by the,subtraction-setting key 67. Each subtraction rkey 66 or 67 also controls indi- Ividually the other functions necessary for a subtracting operation,

- such as the setting of the 9 pins and the setting of the excessmovement pin 93 on the supernumerary bar 92.. If either or bothy of the computing heads is set for subtraction, after this subtraction computation has been run up the mechanism will be auton'iatically returned to its adding condition by the tripping of they latches 76 on the forward movement of the general operator Q3 to run up the slibtraction computation.

lVc have then two or more vcomputing heads having -independent secondary pinsetting mechanisms, all of which, however,

setting mechanism so that the actuation of any numeral key may cause the setting of a correspond- `ing. or complementary pin in all of the nests of pms for all of the computing heads.

`Further, it will be seen that inasmuch as heads, without interfering with the actions ot one another.-

AVariations may be resorted to within the scope of the invention, and portions of the improvements may be used without others. `Having thus described my invention, I

claim f 1. The combimrtion with a plurality of computing heads, cach comprising a plurality of computing` wheels, of a nest of pins for each computing head for determining the extentfof rotation of the wheels thereof, a secondary setting mechanism individual to each nest of pins, and a master settingmechanism foi-'actuating all of said secondary mechanisms.v

2. The combination with a plurality of computing heads, each including a plurality of computing wheels, of a nest of pins for each computing head for determining of computing wheels, of

p individual to each set of said secondary linkages and capable of actuating the same concomitantly.

3. The'combination with a plurality of computing heads, each of computing Wheels, of a nest of pins for each computing head for determining the extent of rotation of the wheels thereof, a Asecondary set of linkages individual to each nest of pins for setting said pins, a set of master linkages common to all of said secondary linkages and capable of actuating the same concomitantly, and shifting means for varying the setting action as determined by the secondary linkages so as to vary'the type of computation effected.

4. The combination with a plurality of computing heads, each including a plurality a nest of pins for each computing h ead for determining the extent of rotation of the wheels thereof, a

i secondary set of linkages individual to each nest of pins for setting said pins, a Set of master linkages common to all of said secondary linkages and capable yof actuating the same concomitantly, and shifting means secondary linkages for varying the type of computation effected thereby.

l5. The combination with a plurality of computing heads, of independent means for indexing computations concomitantly for each head, `means for transferring indexed computations concomitantly to all said computing heads, a single set of numeral keys and means controlled thereby for controlling all said independent indexing means, and means individual to each of said independent ,indexing means for varying the character of computation as to addition and subtraction. i y

6. The combination wii'thf plurality of computing heads, of actl'ating mechanism therefor including" computation indexing mechanism for said leads having parts individual to each head and parts in common, and means individual to each head for changing the character of computation indexed irrespective of the character of computation indexed by the other heads.

he combination with a plurality of computing heads each having a plurality of computing wheels, of a nest of pinsindividual to each computing' head and settable to detelllilne the extent ofrotation of the vcomputing wheels thereof, a plurality of secondary setting linkages, one individual including a plurality s. .The Combinati@ 'with a plurality ofv computing heads each having a series of computing wheels, of al plurality of nests of `the same,.master linkages common said secondarylinkages and arranged to ac` tuate theI sameconcomitantly, and means for varying the connection between the secondary linkages and the master linkages .to vary the setting action of said secondary linkages for thesaine action of saidmaster linkages.

9. The combination with a plurality ofv computing heads, eachhaving a plurality of computing wheels'-of av nest ,-o pins individual-to each of said computing heads, said pins 'beingsettable to determine the extent of rotation of the computingwheels of said computing heads, a secondary setting mech- .anism indivdualjto ,each of said nestsof L pins,

to all of said secondary setting mechanisms andv arranged toactuate the same', and means for -varying the 4connection between said secondary ysetting mechanisms and said mas- I -1 .ter setting Amechanism to vary the character of` setting action thereof. i I v 10. The combination 'with a plurality of computing heads, each including a series of computing wheels,

,vidual to each of said computing heads and l secondary linkages and arranged to actuaterftionof each secondary set of setting link` of `'the action of Athe other i' plus,

g master setting linkages, 0 A

seriesv individual to each master setting link- -ages Imay actuate said secondary linkages. v

l tion to forma-a connection between jsaid' 1nas .v f 'ins one individual ing heads, said pins settableto determine-the extent of vrotation ofthe computing wheels thereof, secondary setting pins, master linkages'comm'on to all of said the same, and meansfor varying'the individual connection between said master'linkages and each of said secondary'linkages so as to vary the individual type of setting acages irrespective secondarysetting linkages.` Y 11. The .combination with a plurality of computing heads, of a plurality of nests of to each of said computbeingy settable to determine the extent of computation runup "in saidl computing heads,-,a set of secondary setting linka es individ'ual to each nest of l a set o vmastensetting linkages comi mon to all ofv saidsets of (secondary setting linkages, a series of :nine arms for each set of secondary setting linkages corresponding to the digits 1 to 9, connected to said set of one arml inv each age, said vseries of arms being also connecte to each o f said sets of secondary setting linkages, None arinfor-eachlsecondaryvv setting linkage 4in each, set whereby said master linkone in each stconcomitantly, and numera a master setting mechanism common' l -set of secondary-setting for shifting said sets of arms so as to inter# --linkages, vof a' nest ofv pins indi' linkages 'for each fof said nests of kthe linkage oclilghest value, d '.vidual'to each lsecondarysetting'linkage for keysfor controlling the action of said set of master setting linkages:

12. The c, mbination with a plurality-doi?l Heads, of'a nest ot' pins indi- 1 computing vidual to eachof said computing heads settable to determinethe 'extent of computation carried on by said computing heads, a setof secondary setting linkages ',individualto each of said nests of pms, a set of master setting linkagescommonto all of said sets of secondary setting linkages, a series of` numeral keys for actuating said set of masi' ter .setting linkages,l a -plurality of sets of adding arms, one set of secondary setting'linkages,

in each set individual to e and one` armv ach masterlinkage individual-to each set and connected thereto to be actuated Ythereby and also individual to one secondary set` ting linkagein the accordant set ot secondary setting linkages, a plurality of sets of `subtracting arms, one set individual t-l f each set of secondary setting'ilinka'ges,

rupt the connection o-an adding. setbef` tween said set of master setting linkages and one of said sets of secondary setting connection by' means of said subtracting and one arm of each set individual to one of said inkage's, and means" '95 at the same time 'completing the f arms between saidset of master setting link` ages and a set Aof said secondary setting 'linkages-f4 :y v f Y 13. The c'ombinationwith. a plurality of computing heads, each including a -series of computing whee1s,rof a nest'of pinsindividual. to each computing head, sai'dpins be ing settable to determine the extent of rotation of s`aid computing ondary setting linkages individual to veach nest of pins, a set, of master setting linkages common to all'of said sets of secondary setnumeral keys for actuating` saidvsetof master setting linkages, there ting llinkages,

being/one numeral key for each master linkico ics

wheels, a set o'f'secage, a-plurality of setsof adding arms, one `set 'individual to each set; ol? secondaryfsetting Ylinkagesyand one arm in each set"indi ing subtracting armi 1, of

each master linkage, with the exception of the accordant set'loff4 secondary setting link-n ages with the exception of the linkage-of ,highest value, .said subtracting arm's-'and'said adding arms beging alternative-15in*their acand also" indi-4 ter linkages and said secondary setting linkages so as to set sald pins elther accordlng to addition or according to subtraction.

A computing heads,

The 4combination with a plurality of each including a series of computingiwheels, of a nest of pins individual'to each computing head, said pins be- 'nest offpi'ns,

inglsettable to determine the extent of rotation of said computing Wheels, a set of secondary setting linkages'individual to each ting linkages, numeral keys for actuating said set of master settinglmkages, there beingione numeral key for each master v Avidual toeach set of secondary setting linkages, and one arm in eachlset individual to each master linkage and also individual to one rsecondary setting linkage in the accordant set'ofsaid seconda-ry setting linkages,

' Aand a plurality of sets of subtracting arms,

` ageof highest value,

' 4 arms foreach set of said 4ses one set 'being individual to each set of. sec'- ondaryv setting linkagesfaidone subtracting arm ofeach'set individual to each master linkage, with the exception of the rlinkand also individual to eachsecondary setting linkage for the accordant set of secondary setting linkages vwiththe exception of the linkage Aothighest value, theadding arms and the subtracting secondary setting linkages being individually alternative-in their action so as toA permit the concomitant setting of one nest of Vpins corresponding to voney computing head for addition while another lnest of plns'corresponding to another computing head may be set for subtraction.

yrriaste'r setting linkages In a computingn'xachine, the combinationv with a plurality of'systen'is of settable ldevices on Whicha number may be Aset up,'o;t' a plurality of sets of registering devices into Which said numbers so set up mav becarried, a pluralitygof sets of secondary setting linkages, one set individual ltoeach'system of settable devices, a set of common to all of said sets of secondary setting linkages, indifvidual connections for adding between said .50'

setof master'setting,linkagesand each' of the linkages of each setdof secondary setting linkages, lindividual connections for sub- .tracting between said set otmaster setting linkages and each set of secondary setting A linkages and shiftingvmeans for said adding 1' and subtracting connections for each secondary set, whereby said systems ot` settable devices may be set for .either addition or slrbtraction.

16. `The combination with computing heads, each includinga of computing Wheels, of a system` o a plurality of plurality settabfe 'device'sffor each of said computing *heads for :determining the extent orotation of the computing,wheels-thereoa set of seconda Aset of master setting linkages *common to all of said sets of secondarysetlinkage, a pluc rallty of/sets of adding arms, one set indi- Lacasse ary setting linkages individual to cachot Ysald systems of settable devices, and a set of master setting linkages common to all oi said sets of secondary setting linkages, a series of, rock shafts for each set of secondary setting linkages, a .set of adding arms on said rock shafts, a set of subtracting arms on said rockshafts, andmeans for shifting said rock shafts to bring said adding arms and said subtracting armsalternately-into play as a means'of connection between said sets of secondary setting linkages and said set of master-setting linkages.

17. The combination With a pluralityof computing heads, of a plurality of `systems yof settable devices, one system individual to each of said computing heads for determining the extent of computation thereof, a set of secondary setting linkages individual to eachvof said systems of settable devices, a set of master setting linkages common to all of saidsets of secondary setting linkages, a series of adding arms for each of said sets of secondary setting linkages, 'a series `ot subtracting arms foreach ot said sets of secondary setting linkages, vand yshitting means individual to each con'lputing head and each set of secondary setting linkages for alternatingthe individual connections between said set of master setting linkages and Said. SetSfOf Secondary setting linkages .individually by means of said addingarms and by means of said subtractingarms. l

18. The combination with a plurality of computing heads, of a systemv ot' settable devices individual to each of said computing /heads to determine the extent ott-,empatat'ion thereof, a set of secondary setting linl- Aages individual to each of said systemsvot' Aset-table devices, a set of master setting link-` ages common to all of said sets of secomlary setting linkages, a plurality of sets of adding arms one set for 4each of said sets ot' seconda-rysetting linkages, a plurality of sets of subtracting. arms one set for each of said Vsets `ot secondary setting linkages. la setof rock shafts for each of said scts'of secondary setting linkages, one rock shaft being connected to both the adding and subtracting arms, meansfor connecting said i rock shafts to said master setting linkages to be actuated thereby, and a shifter bar individual to each set of rock shafts yfor shifting the same to alternate the connection of said adding arms and said subtracting arms between `said set of master setting linkages andthe sets ofsecondarysetting linkages.

. v19. vThe combination with .a numeral' key, of athrust'bar connected to said numeral key, a rock shaft rockable -by said thrust bar, an' arm on said rock shaft, a link shiftable I,by said arm, an adding arm connected to ,said link, .a subtracting arm connected to be actuatedby said link,a'linkage, a pluralitylso of pins settable by said linkage, and shifting means for alternating the operative connection between said lilik and said linkage through the intermediary or' said adding and said subtracting arms alternately.

20. The combination with a plurality of computing heads, ot a subtraction-setting mechanism individual to each otl said heads, a system of setta'ble devices individual to each head to determine the extent of computation Jthereof, a secondary setting mechanism individual to each system of settable devices, and a. master mechanism common to all said secondary setting mechanisms for actuating the same.

2l. The combination with a numeral key, of a rock sha-ft rockable by said numeral key, an arm on said rock shaft, a master link reciprocal by said. arm, al plurality of sets of secondary linkages, a plurality of sets of pins actuable by said linkages, an adding arm for each of said sets of secondary linkages connected to be actuated by said master link, a subtracting arm for each of said secondary linkages connectible to be actuated bysaid master link, and shifting means individual to each pair of adding and subtracting arms for alternating the connection between said master link and the-associated secondary linkages individually.

22. The combination with a nest of pins, oi' a secondary setting mechanism for said pins including a set of linkages, each having a pin thereon, a master set of setting linkages for operating said secondary setting mechanism, each of said master linkages having a pin thereon, and a series of arms one for each oi' said master linkages and one for each secondary setting linkages, said arms engaging said pins to form a means of connection therebetween, the pins on one set of linkages being longer than the pins on the other set of linkages, whereby said arms may be adjusted to interrupt the (.:ounection thereof: Jfrom one se* of linkages While maintaining the connecticu with the other set of linkages.

23. The combination with a plurality of computing heads, of a plurality of sets of denomination-determining members, one set individual to each computing head, means for raising a plurality of said denominationdetermining members concomitantly, ene in each set and serz'czim for the members of a set, settable devices on said members for determining the extent of movement thereof, a set of secondary setting linkages individual to each set of denomination-determining members, and a set of master setting linkages common to all of said sets of secondary setting linkages to actuate the same, so as to concomitantly set ones of said settable devices in different sets of denomination-determining members.

24. In a computing machine, in combinaple drive,

tion. a plurality of computing heads each including a plurality of computing Wheels, operating mechanism therefor including a plurality of sets ot' drivers, one set for each head, the different drivers of each set being individual to different Wheels of the correspondlng computing head, a set of number keys, and mechanism controlled thereby for determining the extent of movement of said drivers when operatedsaid key-controlled movement determining mechanism including means capable of being rendered eii'ective at the operation of each key, for concomitantly determining movements for corresponding .drivers of different sets, varying in extent in accordance with elements of computations of different character.

25. The combination, with a plurality of computing heads; ot a multiple drive individual to each oitl said computing heads, to run up numbers thereon; a general operator for simultaneously actuating allof said multiple drives, to enable all of said computing heads to have numbers run up on them in. unison; a series of numeral keys; a setting mechanism capable of being actuated by said numeral keys and capable of indexing all saidmultiple drives, for concomitantly controlling the extent of movement thereof; and an independent state-controlling mechanism for each computing head directly associated with said setting mechanism, so to control the action thereof upon the correrun up numbers thereon; a genera-l operator for simultaneously actuating all of said multiple drives, to enable all of said computing heads to have numbers run up on them in unison; a series of numeral keys; a setting mechanism capable ot' being actuated by said numeral keys and capable of indexing all said multiple drives, for concomitantly controlling the extent of movement thereof; an independent state-controlling mechanism for each computing head directly associated With said setting mechanism, so as to control the action thereof upon the corresponding multithereby to enable the character of computation of each computing head to be independent While computin With the same numbers in all computing heads as determined by the striking of the numeral keys'; and governing means actuated from said general operator during the running up of a con'iputing heads, or' operating mechanism therefor including means for affording a preliminary representation of a computation for each ot' said computing heads, a single set of numeral keys for all said computing heads, Aand a setting mechanism capable of being actuated by said numeral keys to selectively control in different Ways each of said preliminary representation means, so that different settings of the different preliminary representation means may be eiiected at the same time by the same keys.

28. The combination with a plurality of computing heads, of a series of denominational members for each of said heads, a, series of digital element-s for each denominational member determining the extent of movement thereof, a secondary setting mechanism for said digital elements, there being one of said secondary setting mechanisms for each of said computing heads, a master set-ting mechanism for actuating all of said secondary setting mechanisms.l` and numeral keys for controlling the action ot said master setting mechanism.

Q9. The combination with a plurality oit computing heads, of a series of denominational members for each of said heads, a series of digital elements for each denominational member determining the extent of movement thereof, secondary setting mechanisln for said digital elements, there being one of said secondary setting mechanisms for each o tA said computing' heads, a master setting mechanism for actuating` all 4 oi said secondary setting mechanisms, numeral keys for controlling the action of said master settingmechanisms, and an independent state-controlling means for each computing head directly associated with the corresponding secondary setting mechanism to control the action thereof upon the corresponding series of digital elen'ients, so as to enable said secondary setting mechanisms on the actuation of said numeral keys to set said digital elements .for the different computing heads all for addition or all for subtraction, or part for addition and part for subtraction, for the same digits as determined by the striking of single keys.

30. A computing machine comprising, in combination, a plurality of computingheads each including a plurality of computing wheels, and operating mechanism therefor for eiecting computations of dnierent character on different heads at a single computing operation by imparting to corresponding computing wheels thereof complementary movements of different extent but all in the same direction, said operating mechanism comprising a set of drivers for each head, movement-determining means in part indivi dual to each set of drivers, and in part common-to all, and state-setting means for selectively predetermining the eee; said movement-determining means for each head .in accordance with the nature of the computation to be edected thereby.

3l. rlvhe con'xbination with a plurality of computing heads, each having a series of computing Wheels, of a multiple drive for each of said heads, a general operator common to all of said drives, and means, including state-controlling mechanism, for effecting concomitant additive and subtractive drives of diiterent computing heads at the same time, said means also including` mechanism ttor varying the extent of the movements of the diiierent drives in accordance with the setting of said state-controlling mechanism.

32. rll`he combination with a plurality of distinct computing units, of a single set of numeral keys capable of controlling all said computing units, and an intermediate mechanism controlled by said numeral keys to simultaneously eiiect adding and subtracting computations in diti'erent computing unit-s, said intermediate mechanisn'i including drivingmeans for each computing unit and mechanism for imparting to the driving means of different; units movements varying in extent but bcarn'ig a complemental relation, thus determining Which shall effect a computation in addition and which shall etect a computation in subtraction.

A computing machine comprising, in con'ibination, a plurality of computing heads each including a plurality ot computing Wheels, and operating mechanism therefor including set of variably settable movementdetermining members individual to each computing head 'for determining the extent of rotation of the Wheels thereof, a set of secondary setting devices individual to each set of movement-determining members. and a set of master setting devices available in common for setting secondaryIv setting devices or" each of said setsr A; computing machine comprising, in combination, a plurality of computing heads each including a plurality ot' computing Wheels, and operatingmechanism. therefor including a set of variably setta'ble movementdetermining members individual to each computing head for determining the extent ot rotation of the Wheels thereof, a set of secondary setting devices individual to each set ont movement-determining members, a set of master setting devices available in common for setting secondary setting devices of each of said sets, and state-setting mechanism for selectively varying the relation between said master setting devices and said secondary setting devices, so as to vary the character of computation to be eliected.

ji computing machine comprising, in combina-tion, a plurality of computing heads each including a plurality of computing Wheels, and operating mechanism therefor llt) its

including a set of'variably settable move ment-determining members individual to each computing head for determining the extent of rotation of the wheels thereof, a set of secondary setting devices individual to each set of movement-determining members, a Set of master setting devices available in common for setting secondary setting devices the character of computation to `be effected thereby.

36. A computing machine comprising, in

' combination, a plurality of computing heads Wheels2 and each including a plurality of computing including a set of variably settable movement-determining members individual to eaoh'of said computing each computing head for determining the extent of rotation of the wheels thereof, a set of secondary setting devices individual to each set of movement-determining members, and master setting means including a single set of numeral keys and devices controlled thereby for concomitantly and variably setting corresponding secondary setting devices of each of said sets, so as toetfect computations of different character as determined by ,sa-id settings.

.37. The combination with a plurality of computingjheads, of operating mechanism therefor including a set of variably settable movement-controlling members individual to heads tor determining the extent of computation vcarried on thereby, a set of secondary setting devices individual to each set of movement-controlling members, means including a set of number l keys and master setting devices controlled thereby, available in common for setting corresponding secondary setting devices ot each of said sets, a set of shiftable connectors for Veach of said heads,

operating mechanism thereforl each set of secondary setting devices for variably ei'ecting connections between setting devices of said set and said master setting devices, and `statesetting mechanism individual to each computing head for shifting its connectors, so as to interchange the connections between the secondary setting devices o the set controlled thereby and said master setting devices in order-to vary the character of computation to be eected.

38. The combination with a plurality of each having a series of of a multiple drive 'for a general operator common to all of said heads for rotating said wheels through the vintermediary of said drives, carrying mechanism to be initially set for a carry by said computing wheels when so rotated and operable by a subselquent movement of said general operator to complete said'carry, and means, including state-controlling mechanism, for ei'ecting computing heads, computing Wheels,

concomitant additive and subtractive drives of different vcomputing heads at the same time, the carrying mechanism for each head being capable cf effecting a carry When'either adding or subtracting. i

39. In a computing machine, the combination with means for setting up a number bothy directly and complementally, of a plurality of registers, each register comprising dial wheels, and means, including mechanism for causing rotation of said dial wheels in one direction only, for automatically registering the value of said number in different registers simultaneously through a direct setting up of the numbers, or for registering the negative value of said number in different registers simultaneously through a complemental setting up of the numbers..

RICHARD M. BECKER. Witnesses:

F. E. ALEXANDER, Guo. W. NAYLOR. 

